Organoselenium chemistry. Formation of acetylenes and allenes by

Aug 1, 1980 - Hans J. Reich, William W. Willis Jr. J. Am. Chem. Soc. , 1980, 102 (18), ... M. Lucian Birsa , Henning Hopf. Heteroatom Chemistry 2010 ,...
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J . Am. Chem. Soc. 1980, 102, 5967-5968

(8),11which was isolated as orange-yellow crystals from the reRhHL,

co

trans-RhH(CO)L,

co

6

action of RhHL, and CO. 8 is extremely unstable in the absence of CO. Thus, when the C O atmosphere of the flask containing the n-hexane solution of 8 was replaced with dinitrogen, 7 was obtained in a low yield (18%). The yield (from 8) was much improved by adding free L [P(i-Pr),] to the reaction. It was confirmed that 8 and 7 are also formed from the reaction of CO with 6 separately prepared.12 It is of interest to note that the carbonylrhodium(0) compound 7 reacts with water, producing H2. Thus, a red solution of 7 in pyridine containing 1 mol of free P(i-Pr), turned pale yellow immediately on addition of water at room temperature with H2 evolution (50% based on 7). From the solution was isolated 4b (68%) by adding NaBPh4. The capability of rhodium carbonyl compounds to undergo facile oxidative addition of water is remarkable in view of the presence of electron-withdrawing C O ligands. The formation of the Rh(1) compound 4a is also interesting, since 4a reacts with CO to give C 0 2 and 6, thus suggesting the possibility of catalyzing the water-gas shift reaction. Indeed, we discovered that RhHL, compounds and related species such as 1, 6, 4a, and 7, etc. serve as active catalysts. The details will be described separately.13 Transition-metal compounds would provide a low-energy system for the catalytic photodissociation of water, which is one of the intensive current research interest^.'^ Although a Rh(1) dimer, tetrakis( 1,3-diisocyanopropane)dirhodium(2+),15 was proposed as such a system, hydrogen evolution remains stoichiometric. Therefore, the present study should contribute to our fundamental knowledge for the water-splitting systems. ( I I ) Anal. Calcd for C24H4206P2Rh2: C, 41.40; H, 6.37. Found: C, 41.61; H, 6.28. IR (Kujol), u(C0) -1950 cm-I; 'H NMR (benzene-d6under CO) 0.9 (br, CH,), -1.6 (br, CH). (12) A similar formation of rhodium(0) carbonyl compounds [Rh(CO),L,], and [Rh(S)(CO)L2]2 (S = solvent) from a hydrido complex RhH(CO)L3 (L = PPh,) was reported: Evans, D.; Yagupsky, G.; Wilkinson, G. J . Chem. SOC.A 1968, 2660-2665. (13) Yoshida, T.; Okano, T.; Otsuka, S., to be published. (14) Balzani, V.; Moggi, L.; Manfrin, M. F.; Bolletta, F.; Gleria, M. Science (Washington D.C.) 1975, 189, 852-856. (15) Mann, K. M.; Lewis, L. S.; Miskowski, V. M.; Erwin, D. K.; Hammond, G. s.;Gray, H. B. J . A m . Chem. SOC.1977, 99, 5525-5526. Miskowski, V. M.; Sigal, I . s.;Mann, K. R.; Gray, H. B.; Milder, s. J.; Hammond, G. s.;Rayson, P. R. Ibid. 1979, 101, 4383-4385.

T. Yoshida,* T. Okano, S. Otsuka* Department of Chemistry, Faculty of Engineering Science Osaka University, Toyonaka, Osaka, Japan 560 Received March 28. 1980

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reaction also takes place with vinyl selenoxides to give acetylenes and, in certain situations, allenes. Thermolysis of m-trifluoromethylphenyl vinyl selenoxide3 (la) in benzene forms no acetylene. The products are variable amounts of the reduced selenide and arylselenoacetaldehyde Za. The latter

is presumably formed by reaction of vinyl selenide or vinyl selenoxide with selenenic acid.5 An alternative mechanism involving addition of ArSeOH to acetyleneIb was ruled out when it was found that deuterated l a gave 2a with deuterium only at the aldehyde position. If the thermolysis of l a is carried out with triethylamine present, the formation of Za is completely suppressed, but reduction is still the major process. On the basis of the theory that triethylamine is now the reductant, other amines not as easily oxidized to immonium cations were tried. These included 1,4diazabicyclo[2.2.2]octane (Dabco), quinuclidine, and hexamethyldisilazane. In the presence of 1-2 equiv of these amines, vinyl selenoxides are smoothly thermolyzed to acetylenes at 95 "C. Of the amines used, Dabco is most effective in preventing both selenenic acid addition and reduction. A pericyclic syn elimination mechanism for the acetylene formation is consistent with all of the experimental results: (1) The rate of elimination of l a is the same when 0.5, 2.9, or 5.1 equiv of Dabco are present. The reaction, thus, is not an E2 elimination. (2) The selenoxides 3a and 4aIC3,show very different behavior. Compound 3a gives a 63% (by N M R ) yield of 3-methylbutyne in 20 h at 95 "C whereas 4a gives only a trace (